RU81907U1 - ELECTROMAGNETIC ACTIVATOR OF PROCESSES - Google Patents

Abstract

1. An electromagnetic process activator containing a working area of the pipe with the working bodies of the needles inside it, an external electromagnetic inductor and a working body reflector installed in the pipe at the outlet of the working area in the form of a disk with holes, characterized in that the electromagnetic process activator is equipped with a loading device and a working catcher bodies installed respectively at the entrance and exit of the working area. ! 2. The electromagnetic process activator according to claim 1, characterized in that the loading device is made in the form of a pipe mounted vertically on the pipe in communication with its cavity, provided with a rotary butterfly valve above and sealed with a threaded cap. ! 3. The electromagnetic process activator according to claim 1, characterized in that the catcher of the working fluid is made in the form of a nozzle installed hermetically in the section of the pipe and communicated with it, having a plug at the upper end and a partition perpendicular to the axis of the pipe, installed with a gap relative to the lower a removable nozzle cover, on the inner surface of which permanent magnets are fixed. ! 4. The electromagnetic process activator according to claims 1 to 3, characterized in that the pipe sections near the nozzles are hermetically fastened by means of flange connections.

Description

The utility model relates to devices for the preparation of heating oil from economically hazardous oil sludge.

A known activator of liquid (RF patent 2224586, IPC B01F 13/08, 2004), containing the working area of the pipe with working bodies in the form of needles inside it and an external electromagnetic inductor.

The disadvantage of this device is the increased consumption of working fluid carried out from the working area by the flow of the medium being treated.

The closest in technical essence and the achieved result is the installation for activation of processes (EAP) or dispersant containing the working area of the pipe with working bodies in the form of needles inside it and an external electromagnetic inductor. At the exit from the working area, a reflector is installed in the form of a disk with holes for holding working bodies in the working area (N.N. Vershinin, Process activation settings, study guide, Rostov-on-Don (Salsk), 2004, International Academy of Authors discoveries and inventions, p. 116, Fig. 2).

At the same time, the disk reflector does not provide reliable retention of the needles in the working area, since based on the requirements of the technological process (pressure, temperature, productivity, etc.), the diameter of the holes in the reflector disk is chosen greater than the diameter of the needles and less than their length . Some of the needles appear as a result of chaotic movement at the holes of the reflector in a position close to their axis and are carried out by the fluid flow outside the working area. A decrease in the number of working fluids in the zone leads to a decrease in the processing intensity and, accordingly, the quality of the product, including contamination with its needles. Significant labor costs for disassembling the device to make up for the loss of needles, loss of needles and time reduce the effectiveness of the prototype device.

The objective of the utility model is to ensure product quality within specified limits and increase the efficiency of the electromagnetic process activator. This problem is solved by the fact that in the electromagnetic process activator, including the working area of the pipe with the working fluid in the form of needles inside it and an external electromagnetic inductor, in accordance with the proposed solution, the activator is equipped with a loading device and a working fluid trap installed, respectively, at the input and exit from the working area.

In this case, the loading device can be made in the form of a pipe mounted vertically on the pipe, in communication with its cavity, provided with a rotary butterfly valve above and closed with a threaded cap tightly on top.

In addition, the catcher of the working bodies (needles) can be made in the form of a pipe installed in the section of the pipe having a through hole, to the edges of which are connected the ends of the pipe, a cap at the upper end and a partition perpendicular to the axis of the pipe, installed with a gap relative to the lower removable the nozzle cover, on the inner surface of which permanent magnets are fixed.

For ease of assembly and disassembly, pipe sections near the nozzles can be connected via flange connections.

Due to the presence of the catcher’s septum, the flow of the treated liquid is directed downward towards the permanent magnets on the removable cover, which hold the working bodies. The removable cover allows the accumulated working fluids to be removed from the trap and, at specified intervals after demagnetization in the traditional way, through the loading device, returned to the working area, which ensures a predetermined level of product quality (eliminates its contamination with needles) and loss of working fluids.

At the same time, the presence of a disk shutter in the loading device allows the needles to be reloaded without disassembling the EAA and without stopping its operation, which reduces labor costs, as well as the loss of time and the aggregate increases the efficiency of the EAA. This allows us to conclude that the proposed utility model solves the problem. The accompanying drawing shows a sectional electromagnetic activator of processes.

The EAA includes a pipe 1, the outside of which an electromagnetic inductor 2 is installed, which, in turn, is placed in the housing 3 with flanges 4 and disks hermetically mated with them 5. Through the central holes of the disks 5, pipe 1 is passed through to ensure tightness. The inner plane of the pipes 1 between the inductor coils 2 is a working area 6 in which working bodies in the form of needles (not shown) are placed. At the exit from the working area 6, a disk reflector of needles 8 with holes is installed on the central shaft 7. On the disks 5, a seal 9 is made for the terminals of the windings of the inductor 2 connected to an electrical panel (not shown) and a fitting 10 and 11 of the inlet and outlet of the cooling oil cooling system inductor (not shown).

At the entrance and exit of the working area on the pipe 1 outside the casing 3, respectively, a loading device 12 and a needle catcher 13 are installed.

The loading device 12 is made in the form of a pipe 14 mounted vertically on the pipe 1 so that its lower edges are connected hermetically to the edges of the holes on the pipe 1. A manual rotary butterfly valve 15 is installed above the pipe in the pipe 14, and a removable threaded cover is closed on top of the pipe 16 s PTFE O-ring.

The needle catcher 13 is made in the form of a pipe 17 mounted vertically in the section of the pipe 1 so that the edges of the pipe are hermetically connected to the edges of the through hole of the pipe on both sides. At the upper end of the pipe 17, a sealing plug 18 is installed and a partition 19 perpendicular to the axis of the pipe 1. The latter is made with a gap with respect to the lower removable sealed cover 20. Permanent magnets 21 are fixed on the inner side of the cover 20. For easy assembly and disassembly, pipe sections 1 near the pipes 14 and 17 are connected by flange connections 22.

An electromagnetic process activator works as follows:

Through the control panel (not shown) include an electromagnetic inductor and its cooling system (not shown). Oil sludge with the addition of water through a pump (not shown) is fed into the working area 6 of the pipe 1 (shown by arrow).

An electromagnetic field and rotating (oscillating) under its action working fluids simultaneously act on the fluid being treated. A huge amount of energy is concentrated in the unit volume of the working zone, under the influence of which, as well as rapidly rotating working bodies, the processed fluid is rapidly mixed, and changes in the structure of matter and activation of interacting components (processes) also occur.

When the activator is working, a part of the working bodies, which are opposite the openings of the reflector 8 in a horizontal position, are removed from the working zone by the flow of treated liquid and enter the trap 17. The trap 19 separates the stream with needles down to the permanent magnets 21. The latter hold the needles, and the treated fluid flows sent through the gap between the partition 19 and the lower removable cover 20 to the receiving tank or directly to the power plant.

In the technological break, the lid 20 is removed and the accumulated needles are unloaded, which are then used to reload the working area at specified intervals (determined experimentally) without stopping the activator.

To do this, close the shutter 15, open the lid 16, pour the required dose of needles into the nozzle 12, close the lid and then open the shutter 15. The needles fall into the cavity of the pipe 1 and are delivered to the working area 6 by the fluid flow.

At the exit from the EAP, a high-quality water-fuel emulsion is obtained.

Claims (4)

1. An electromagnetic process activator containing a working area of the pipe with the working bodies of the needles inside it, an external electromagnetic inductor and a working body reflector installed in the pipe at the outlet of the working area in the form of a disk with holes, characterized in that the electromagnetic process activator is equipped with a loading device and a working catcher bodies installed respectively at the entrance and exit of the working area. 2. The electromagnetic process activator according to claim 1, characterized in that the loading device is made in the form of a pipe mounted vertically on the pipe in communication with its cavity, provided with a rotary butterfly valve above and sealed with a threaded cap. 3. The electromagnetic process activator according to claim 1, characterized in that the catcher of the working fluid is made in the form of a nozzle installed hermetically in the section of the pipe and communicated with it, having a plug at the upper end and a partition perpendicular to the axis of the pipe, installed with a gap relative to the lower a removable nozzle cover, on the inner surface of which permanent magnets are fixed. 4. The electromagnetic process activator according to claims 1 to 3, characterized in that the pipe sections near the nozzles are hermetically fastened by means of flange connections.